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Title: Resolution and Dynamical Core Dependence of Atmospheric River Frequency in Global Model Simulations

Journal Article · · Journal of Climate, 28(7):2764-2776
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This study examines the sensitivity of atmospheric river (AR) frequency simulated by a global model with different grid resolutions and dynamical cores. Analysis is performed on aquaplanet simulations using version 4 of Community Atmosphere Model (CAM4) at 240, 120, 60 and 30 km model resolutions each with the Model for Prediction Across Scales (MPAS) and High-Order Methods Modeling Environment (HOMME) dynamical cores. The frequency of AR events decreases with model resolution and the HOMME dynamical core produces more AR events than MPAS. Comparing the frequencies determined using absolute and percentile thresholds of large-scale conditions used to define an AR, model sensitivity is found to be related to the overall sensitivity of sub-tropical westerlies, atmospheric precipitable water content and profile and to a lesser extent on extra-tropical Rossby wave activity to model resolution and dynamical core. Real world simulations using MPAS at 120 km and 30 km grid resolutions also exhibit a decrease of AR frequency with increasing resolution over southern East Pacific, but there difference is smaller over northern East Pacific. This inter-hemispheric difference is related to the enhancement of convection in over the tropics with increased resolution. This anomalous convection sets off Rossby wave patterns that weaken the subtropical westerlies over southern East Pacific but have relatively little effect on those over northern East Pacific. In comparison to NCEP2 reanalysis, MPAS real world simulations are found to underestimate AR frequencies at both resolutions likely because of their climatologically drier sub-tropics and poleward shifted jets. This study highlights the important links between model climatology of large-scale conditions and extremes.

Research Organization:
Pacific Northwest National Laboratory (PNNL), Richland, WA (United States)
Sponsoring Organization:
USDOE
Grant/Contract Number:
AC05-76RL01830
OSTI ID:
1182882
Report Number(s):
PNNL-SA-104683; KP1703010
Journal Information:
Journal of Climate, 28(7):2764-2776, Journal Name: Journal of Climate, 28(7):2764-2776
Country of Publication:
United States
Language:
English
Citation Metrics:
Cited by: 62 works
Citation information provided by
Web of Science

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Cited By (10)

Diagnosing links between atmospheric moisture and extreme daily precipitation over the UK: LINKING ATMOSPHERIC MOISTURE AND UK PRECIPITATION journal November 2015
Modeling extreme precipitation over East China with a global variable-resolution modeling framework (MPASv5.2): impacts of resolution and physics journal January 2019
Sensitivity of Atmospheric Rivers to Damping of Midlatitude Subseasonal Variability journal September 2019
High Resolution Model Intercomparison Project (HighResMIP v1.0) for CMIP6 journal January 2016
Tracking Atmospheric Rivers Globally: Spatial Distributions and Temporal Evolution of Life Cycle Characteristics journal December 2019
Ocean warming pattern effects on future changes in East Asian atmospheric rivers journal May 2019
North-south dipole in winter hydroclimate in the western United States during the last deglaciation journal March 2019
North American extreme precipitation events and related large-scale meteorological patterns: a review of statistical methods, dynamics, modeling, and trends journal September 2019
Atmospheric River Tracking Method Intercomparison Project (ARTMIP): project goals and experimental design journal January 2018
Climate Change Feedbacks in Aquaplanet Experiments With Explicit and Parametrized Convection for Horizontal Resolutions of 2,525 Up to 5 km text January 2019

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Related Subjects

resolution
dynamical
core dependence
atmopheric river frequency